Cutout tool will cut through nails

The vast majority of multi tool blade formats are compatible with Imperial Blades products. Cutting through nail-embedded wood, metal strapping, and other tough materials is an absolute breeze! You often need a tough blade for demolition or a thin blade for a precise flooring cut demanding extreme accuracy. This is a perfect blade to add to the tool bag for any contractor or renovation professional.

The tough high speed steel construction offers excellent durability and a safe, clean cut - and is the thickest blade that Imperial Blades manufactures. Please do not spend any money on these products unless you feel you need them or that they will help you achieve your goals. How to Trim Even the Thickest Toenails One of the questions we get asked a lot in our Seattle podiatry clinic is how to trim thick nails. This is critical — the right tools make for an easy job clipping even the thickest nails The products below are the ones we recommend to our patients and they are also affiliate links so we may receive a small commission at no additional cost to you if your order from the link.

It comes with bits specifically made to work on thick toenails. The large cone, small cone, and disc bits are made from long lasting sapphire and diamond chips. We have tried many of these units over the years and this is best one we have found and the one we recommend to our patients. The video below shows how to use the Pedinova Nail Grinder. Heavy duty podiatry-grade toenail clippers : We recommend ClipPro nail clippers for our patients.

Figure 2. Figure 5. Figure 8 — Small Sapphire Bit. Figure 9 — Sapphire Sanding Disk Bit. Shoes recommended by our doctors - subscribe now. Send my shoe list. Thank you! Check your email for your shoe guide. New Patients Please fill out the form below and we will contact with you within one business day.

Please don't hesitate to contact us at An oscillating multi-tool can be used to cut rebar. Rebar is universally made of carbon steel, but comes in different strength grades. Rebar in the lowest US strength grades 40 and 60 is easy to cut with a bi-metal saw blade. The higher strength grades 75, 80 and , however, should preferably be cut with carbide blades instead. The cutting capacity of oscillating multi-tools is rarely a limiting factor in cutting rebar.

Small-diameter rebar will need support close to the cut to avoid excessive vibration. An oscillating multi-tool may not be the fastest tool for cutting rebar, but it is very flexible. The tool allows you to cut rebar in restricted spaces where saws, grinders or bolt cutters may not fit. An oscillating multi-tool can also cut rebar exactly flush to a surface — a feature which may come in handy when trimming off unnecessary rebar ties sticking out of a finished concrete slab.

An oscillating multi-tool can be used to cut wood screws. With material tensile strengths ranging from about 70 to ksi to MPa , the common steel wood screws are, on average, slightly harder than nails. While the softer screws could be successfully cut with bi-metal saw blades, the stronger ones are best cut with carbide saws for optimal blade life. The challenge is that there are no established strength grades or markings for wood screws, and so the actual material strength is not easy to tell.

For this reason, I recommend using a carbide saw blade, if available, for all wood screws. Wood screws are usually relatively light gauge and are easy and fast to cut with an oscillating multi-tool equipped with the right kind of blade. An oscillating multi-tool is excellent trimming off the tips of overlong screws that protruding out of a board, as it can do this neatly flush to the board face, unlike most other saws or pliers.

It can also be used to make a plunge cut into the tight gap between two pieces of lumber to release a screw joint that cannot otherwise be opened. An oscillating multi-tool can be used to cut sheet metal.

The type of blade you need is determined by the sheet material: bi-metal saws can be used for softer metals such as aluminum, brass, copper and mild steel, while hardened steel and stainless steel should be cut with carbide saws. Both plunge-cut and segment saw blades can be used, but the segment saws provide stabler cutting. The main challenge in cutting sheet metal is workpiece stability. The sawing forces must usually be oriented obliquely out of the plane of the sheet and tend to flex the sheet up and down.

This flexing may lead to inefficient cutting, excessive noise and kickback in the tool. The issue is particularly severe with thin sheets. You can often stabilise the sheet for cutting by clamping it close to the cut line for its entire length.

Alternatively, the sheet can be clamped against a thicker sacrificial sheet of plywood, as illustrated in the image above. Cutting sheet metal with an oscillating multi-tool is not very fast. However, an oscillating multi-tool is relatively flexible in terms of material and cut geometry, comparatively safe and mostly non-sparking.

It also leaves both sides of the cut clean and unbent. An oscillating multi-tool can be used to cut stainless steel. Most stainless steel alloys are very tough and work-hardening, which leads to high cutting forces and heat generation. Stainless steel is therefore best cut with carbide saw blades, which can take the high cutting temperatures without softening. You may have some success with bi-metal saws, but their useful life in cutting stainless steel will be short.

The cutting technique to be used with stainless steel depends on the shape of the product. Bolts, screws and pipe are easy to cut; for more information on cutting stainless steel sheets, see Sheet metal. An oscillating multi-tool can be used to cut most steels. Different steel alloys vary greatly in strength and hardness and therefore in ease of cutting. The softest unhardened low-carbon and low-alloy steels are relatively easy to cut both with bi-metal and carbide saw blades. Medium-strength hardened steels such as that found in high strength grade bolts are already somewhat harder, and should preferably be cut with carbide saw blades.

On the other hand, the very highest strength alloy and tool steels may be hard or impractical to cut even with carbide blades. For more information on cutting different steel products, see Bolts , Nails , Rebar , Screws , Sheet metal , Stainless steel. Brick, or precisely clay brick, is a relatively soft coarse ceramic material, and can be easily cut with an oscillating multi-tool. Although soft, brick is abrasive due to the hard minerals contained, and should preferably be cut with a carbide plunge-cut or carbide or diamond grit segment blade to avoid fast blade wear.

Bi-metal saw blades will also work, but will dull relatively quickly. The same applies to perforated bricks with the same cross section. There are no particular restrictions on how bricks can be cut with an oscillating multi-tool.

Bricks are stiff and do not flex under the cutting forces, which allows the cut to proceed steadily regardless of the orientation.

An oscillating multi-tool can be used to cut ceramic tiles. These tiles are hard and abrasive and should preferably be cut with diamond grit saw blades. Carbide-tipped blades may also work, but will suffer from a higher wear rate. Ceramic tiles are usually quite thin and present no particular challenge in terms of cutting capacity. Ceramic tiles are brittle, though, and must be cut carefully to avoid cracking them.

During cutting, the tile should be stiffly supported very close to the cut line to avoid vibration or large bending stresses in the tile. The cutting process is similar to grinding and generates very fine dust, and you should take care of proper dust extraction and wearing the appropriate PPE.

Dust can also be mitigated by wetting the tile, which also decreases the blade temperature at the cutting point and extends the blade life.

Cutting ceramic tiles with an oscillating multi-tool is very slow and not very accurate. It is thus not well suited to large-volume straight splitting of tile rows, for example, which is much better done with dedicated ceramic tile cutters. However, an oscillating multi-tool is excellent for detailed tile work such as small cutouts, holes, pockets and reliefs, which may be difficult or impossible to make with other tile cutting methods.

An oscillating multi-tool can be used to cut concrete. Due to the hard minerals in the aggregate sand, gravel, and crushed rock concrete is very abrasive for the blades. For this reason, concrete should preferably be cut with diamond grit saw blades. Cutting capacity of oscillating multi-tools into concrete is limited by the reach of the blade used. These blades are not usually intended for concrete, however, and may not be very efficient or long-lasting in this use.

Cutting concrete with an oscillating multi-tool is stable and easy, as concrete objects and structures are usually massive and workpiece flexing therefore rarely an issue. Dust can also be mitigated by wetting the concrete prior to cutting, which also decreases the blade temperature at the cutting point and extends the blade life. Although not difficult, cutting concrete with an oscillating multi-tool is relatively slow. As such, it cannot compete in cutting capacity or productivity with other tools.

However, an oscillating multi-tool is excellent for detailed concrete finishing work such as small cutouts, holes, pockets and reliefs, which may be difficult or impossible to make with other cutting methods. An oscillating multi-tool can be used to cut drywall. Consisting of gypsum, some additives and two backer papers, drywall is soft and easy to cut through. Drywall can be cut with all plunge-cut and segment saw blades intended for wood or metal. Sheets with fiberglass or abrasive fillers can be cut with all saw blades, but carbide saws should be preferred for best blade life.

Cutting capacity of oscillating multi-tools into drywall is not limiting in most cases. Cutting drywall with an oscillating multi-tool is stable and easy, and there are no particular restriction on cutting technique. The cutting process does generate fine dust, and you should take care of proper dust extraction and wearing the appropriate PPE. Because of the relatively slow cutting speed and lack of guiding, an oscillating multi-tool is not very efficient in resizing sheets and other long straight cuts.

Instead, an oscillating multi-tool is excellent for cutting details such as small cutouts for pipes, holes, pockets and reliefs, which may be difficult or impossible to make with other cutting methods.

It is also one of the very few tools capable of making small square holes into the middle of a larger sheet of drywall.

An oscillating multi-tool can be used to cut glass. Common soda-lime and borosilicate glasses used in windows and household wares have Mohs hardnesses between 6 and 7, and should preferably be cut with diamond or carbide grit saw blades.

Carbide saws may also work, but will suffer from a higher wear rate. Cutting capacity: Most glass items are thin-walled and present no particular challenge to oscillating multi-tools in terms of cutting capacity.

Cutting technique: Instead, the real challenge in cutting glass with an oscillating multi-tool is that the cut proceeds very slowly and the glass workpieces are very easily cracked or shattered during cutting. Further, due to the high hardness, the tool does not quickly bite into the material, and is also prone to wandering during the cut. For best results, glass workpieces should be firmly supported close to the cut, and the contact angle between the glass and the blade adjusted so as to minimize vibration and ringing in the workpiece.

To avoid blade wandering, it is often advisable to guide the cut with a sacrificial strip of material on top of the workpiece; alternatively, the oscillating tool may be mounted on a holder, and the workpiece guided through the cut instead.

As cracking may sometimes occur in the workpiece in spite of all efforts to avoid it, it often makes sense to start the cut by lightly scoring the whole cut line with the tool: with enough luck, this scored line will guide the crack to go along the intended cut line.

Safety: Cutting glass with an oscillating multi-tool generates very fine dust, and you should take care of proper dust extraction and wearing the appropriate PPE. Dust can also be mitigated by wetting the glass, which also decreases the blade temperature at the cutting point and extends the blade life.

Applications: Cutting glass with an oscillating multi-tool is very slow, not very accurate, and risks cracking the workpiece. It is thus not well suited to long, straight or accurate cuts, such as resizing window panes.

However, an oscillating multi-tool may be a good alternative for small noncritical glass work. An oscillating multi-tool can be used to cut granite. Due to its high hardness between 6 and 7 on the Mohs scale, granite should preferably be cut using diamond grit segment saws.